DE1234461B - Throttle nozzle arrangement in a flow channel - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

Int. Cl .:

F161-

GERMAN

PATENT OFFICE

PATENT LETTERING

German class: 47 t -1/01

Number: 1234 461

File number: L 45046 XII / 47 f
Filing date: June 6, 1963

February 16, 1967
August 24, 1967

Display day:

Issue date:

The patent specification corresponds to the patent specification

The invention relates to a throttle nozzle arrangement with an interchangeable in a cylindrical Section of a flow channel used throttle nozzle, which consists of an elongated, externally cylindrical Metal sleeve with a bottom part containing a calibrated throttle bore and is supported against an annular shoulder of the flow channel.

Throttle nozzles which can be inserted and exchanged in a flow channel are known in many different designs. With them, however, either the structure is complicated and the installation time-consuming, or there is a risk that the throttle bore will be deformed during installation. The object of the invention is to design a throttle nozzle arrangement of the type mentioned so that it can be easily inserted into a cylindrical section of a flow channel and removed again with a simple structure without changing the cross section of the throttle bore or damaging the wall of the flow channel.

This object is achieved by the invention through the use of the following features in common solved:

a) the metal sleeve has at a distance from the bottom part inside one to the open end of the The sleeve has a slightly conically flared section and at this point carries itself on the outside well-known rectangular ring grooves;

b) in the slightly conically widened section of the metal sleeve is in a manner known per se a correspondingly slightly conical expansion sleeve driven in;

c) the metal sleeve and the expansion sleeve have internally known threaded sections for Screwing in extraction mandrels.

Within these three groups of features, the invention makes use of features known per se, but avoids the disadvantages of the throttle nozzle assemblies, of which these features are known. So a throttle nozzle assembly is known, which consists of a short piece of pipe or a There is an annular disc, the through hole of which represents the calibrated bore. At one or at Both ends of the tube or the washer has an annular protrusion that extends when the Throttle nozzle can dig into the side wall of the mounting hole against a collar. This training has the "disadvantage that the wall of the receiving bore is damaged and the nozzle is practical Throttle nozzle arrangement in a flow channel

Patented for:

The Lee Company, Westbrook, Conn. (V. St. A.)

Representative:

Dipl.-Chem. Dr. W. Koch and Dr.-Ing. R. Glawe, Patent Attorneys, Munich 22, Liebherrstr. 20th

Named as inventor:

Leighton Lee, Guilford, Conn. (V. St. A.)

Claimed priority:

V. St. v. America June 7, 1962 (200 692) - -

can no longer be removed. Both are avoided by the design according to the invention.

Expansion connections are also known. They have calibrated when used on throttle nozzles Bores have the disadvantage that the bore changes due to the expansion. The invention overcomes these disadvantages by Recognition that the expansion connection and the caliber bore can easily be connected to a sleeve-shaped Have the component arranged if a sufficient axial distance is maintained between the two parts.

The invention thus represents a particularly advantageous combination of features in its Fulfill the set requirements as a whole.

. According to a further feature of the invention, the cylindrical metal sleeve has in the area its bottom part has an inwardly offset peripheral section. At the end of the inwardly offset circumferential section of the metal sleeve an annular shoulder may be formed, which on the ring shoulder of the flow channel comes to rest.

One embodiment of the invention is in Drawing shown for example. It shows

F i g. 1 is a side view of the parts of the throttle nozzle assembly;

F i g. 2 shows a section through the parts of the throttle nozzle arrangement,

F i g. 3 shows a section through the built-in throttle nozzle arrangement.

The throttle nozzle arrangement 10 consists of a metal sleeve 12 and a separate expansion sleeve 14.

709 656/145

The sleeve 12 is hollow and has a cylindrical outer surface 16 which are arranged at a distance from one another Has annular grooves 18, 19 and 20. That part of the surface 16 between these annular grooves forms the rings 22, 23.

In the vicinity of its front end to be inserted first into the flow channel, the sleeve 12 a beveled annular shoulder 24 and an inwardly offset peripheral portion 25 with a forwardly projecting oblique ring extension 26.

In the cylindrical sleeve 12 there is a base part approximately in the area of the circumferential section 25 27, in which a precisely calibrated throttle bore 28 is drilled. The throttle bore is at its ends widened conically at an angle of 67 °. The flared parts 30, 31 are so deep that the cylindrical part has a very specific ratio of length to diameter and for each Bore diameter calibrated entry conditions are obtained.

At the entrance to the flared part 30, a flat end wall 32 is provided. Of the conically widened part 31 from the throttle bore goes over a somewhat conical end face 33 in a cylindrical bore 34 which ends at a shoulder 35.

A slightly conically widened bore section 37 begins at shoulder 35 and extends in the axial direction extends in the sleeve 12 in the part which has the annular grooves 18, 19 and 20 on the outside. At the At the end of the sleeve 12, a threaded section 36 for pulling out the sleeve 12 is provided on the inside.

To clean the medium flowing into the throttle bore 28, filter screens 40 and 44 are made perforated, stainless steel provided. The filter screen 40 is together with an annular Disk 38 is attached to the sleeve 12 by the annular extension 26 which is bent inward. The filter element 44 is applied to the shoulder 35 in the sleeve 12 by means of an annular disk 42. the annular disks 38 and 42 have openings 41 and 43, the diameter of which is larger than that conical parts 30 and 31 on their sides facing the filter elements.

The expansion sleeve 14 has a bore 46, the diameter of which is at least as large as that conical parts 30 and 31 at their further ends, the sleeve 14 also having a threaded portion 48 'for screwing in an extraction mandrel. The expansion bushing is on the outside Peripheral part 50 corresponding to the bore section 37 in the sleeve 12 is slightly conical. The conicity is chosen so that a predetermined radial extent of the outside of the sleeve 12 in the area of Annular grooves 18, 19 and 20 takes place when the outer end 49 of the expansion sleeve 14 and the outer end 39 the sleeve 12 form a plane.

The insertion and removal of the throttle nozzle assembly is described in connection with FIG. 3 described. A housing 52 has a flow channel 54 which is cylindrical at the outer end is extended that an annular shoulder 58 is formed. The sleeve 12 with the throttle bore 28 and the Filters 40 and 44 have an outside diameter that fits into cylindrical portion 56 with a sliding fit. To . the insertion, the shoulder 24 of the sleeve 12 meets the shoulder 58 of the flow channel. Then the expansion sleeve 14 is inserted and pressed in until the end 49 of the sleeve 14 with the end 39 of the sleeve 12 completes. With the radial expansion of the sleeve 12 caused by this in the area of the annular grooves 18, 19, 20 this is in the cylindrical section 56 of the flow channel

ίο 54 set and sealed.

In order to remove the throttle nozzle arrangement, an extraction mandrel with a thread corresponding to the threaded section 48 is inserted into the expansion sleeve 14 screwed in. In a similar way, it can then be inserted into the threaded section by means of a further one 36 screwed-in extraction mandrel, the sleeve can be removed.

Claims (3)

Patent claims: 1. Throttle nozzle assembly with an interchangeable in a cylindrical portion of a Flow channel used throttle nozzle, which consists of an elongated outer cylindrical metal sleeve with a calibrated throttle bore containing bottom part and is supported against an annular shoulder of the flow channel, characterized by the joint application of the following features: a) the metal sleeve (12) has at a distance from the bottom part (27) inside one to the open End of the sleeve slightly conically flared section (37) and carries at this point rectangular ring grooves (18, 19, 20) known per se on the outside; b) in the slightly conically widened section (37) of the metal sleeve (12) is on in a known manner an externally correspondingly slightly conical expansion bushing (14) is driven; c) the metal sleeve (12) and the expansion sleeve (14) have internally known threaded sections (36 or 48) for screwing in extraction mandrels. 2. Throttle nozzle arrangement according to claim 1, characterized in that the cylindrical Metal sleeve (12) in the area of its bottom part (27) has an inwardly offset peripheral section (25). 3. throttle nozzle arrangement according to claim 2, characterized in that at the end of the after internally offset circumferential section (25) an annular shoulder (24) is formed on the annular shoulder (58) of the flow channel (54) comes to rest. Considered publications:
French patent specification No. 377 449,
499 225, 992 578; French additional patent specification No. 69 920
(Addendum to French Patent No. 1 125 804);
U.S. Patent Nos. 1,657,751, 2,409,294,
460 407, 2 821 323. ' 1 sheet of drawings